Literature DB >> 8502995

Feedback regulation mechanisms for the control of GTP cyclohydrolase I activity.

T Harada1, H Kagamiyama, K Hatakeyama.   

Abstract

Guanosine triphosphate (GTP) cyclohydrolase I, the rate-limiting enzyme in the biosynthesis of tetrahydrobiopterin (BH4), is subject to feedback inhibition by BH4, a cofactor for phenylalanine hydroxylase. Inhibition was found to depend specifically on BH4 and the presence of another protein (p35). The inhibition occurred through BH4-dependent complex formation between p35 protein and GTP cyclohydrolase I. Furthermore, the inhibition was specifically reversed by phenylalanine, and, in conjunction with p35, phenylalanine reduced the cooperativity of GTP cyclohydrolase I. These findings also provide a molecular basis for high plasma BH4 concentrations observed in patients with hyperphenylalaninemia caused by phenylalanine hydroxylase deficiency.

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Year:  1993        PMID: 8502995     DOI: 10.1126/science.8502995

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  39 in total

1.  Ligand binding to the inhibitory and stimulatory GTP cyclohydrolase I/GTP cyclohydrolase I feedback regulatory protein complexes.

Authors:  T Yoneyama; K Hatakeyama
Journal:  Protein Sci       Date:  2001-04       Impact factor: 6.725

2.  Pet-1 Controls Tetrahydrobiopterin Pathway and Slc22a3 Transporter Genes in Serotonin Neurons.

Authors:  Steven C Wyler; Lauren J Donovan; Mia Yeager; Evan Deneris
Journal:  ACS Chem Neurosci       Date:  2015-02-18       Impact factor: 4.418

3.  Direct binding of GTP cyclohydrolase and tyrosine hydroxylase: regulatory interactions between key enzymes in dopamine biosynthesis.

Authors:  Kevin M Bowling; Zhinong Huang; Dong Xu; Faiza Ferdousy; Christopher D Funderburk; Nirmala Karnik; Wendi Neckameyer; Janis M O'Donnell
Journal:  J Biol Chem       Date:  2008-09-18       Impact factor: 5.157

4.  Tetrahydrobiopterin Supplementation Improves Phenylalanine Metabolism in a Murine Model of Severe Malaria.

Authors:  Matthew S Alkaitis; Hans C Ackerman
Journal:  ACS Infect Dis       Date:  2016-09-27       Impact factor: 5.084

5.  Dynamics of tyrosine hydroxylase mediated regulation of dopamine synthesis.

Authors:  Poorvi Kaushik; Fredric Gorin; Shireen Vali
Journal:  J Comput Neurosci       Date:  2007-04       Impact factor: 1.621

Review 6.  Structure and function of the aromatic amino acid hydroxylases.

Authors:  S E Hufton; I G Jennings; R G Cotton
Journal:  Biochem J       Date:  1995-10-15       Impact factor: 3.857

7.  Characterization of transgenic Gfrp knock-in mice: implications for tetrahydrobiopterin in modulation of normal tissue radiation responses.

Authors:  Rupak Pathak; Snehalata A Pawar; Qiang Fu; Prem K Gupta; Maaike Berbée; Sarita Garg; Vijayalakshmi Sridharan; Wenze Wang; Prabath G Biju; Kimberly J Krager; Marjan Boerma; Sanchita P Ghosh; Amrita K Cheema; Howard P Hendrickson; Nukhet Aykin-Burns; Martin Hauer-Jensen
Journal:  Antioxid Redox Signal       Date:  2013-05-03       Impact factor: 8.401

8.  GTP cyclohydrolase I: purification, characterization, and effects of inhibition on nitric oxide synthase in nocardia species.

Authors:  Aimin He; John P N Rosazza
Journal:  Appl Environ Microbiol       Date:  2003-12       Impact factor: 4.792

9.  GTP cyclohydrolase I expression, protein, and activity determine intracellular tetrahydrobiopterin levels, independent of GTP cyclohydrolase feedback regulatory protein expression.

Authors:  Amy L Tatham; Mark J Crabtree; Nicholas Warrick; Shijie Cai; Nicholas J Alp; Keith M Channon
Journal:  J Biol Chem       Date:  2009-03-13       Impact factor: 5.157

10.  GTP cyclohydrolase I phosphorylation and interaction with GTP cyclohydrolase feedback regulatory protein provide novel regulation of endothelial tetrahydrobiopterin and nitric oxide.

Authors:  Li Li; Amir Rezvan; John C Salerno; Ahsan Husain; Kihwan Kwon; Hanjoong Jo; David G Harrison; Wei Chen
Journal:  Circ Res       Date:  2009-11-19       Impact factor: 17.367
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